Add to ORKGNatural ventilation of building provides improvement of internal comfort and air quality conditions leading to a significant reduction of cooling energy consumption. Design of natural ventilation systems for many types of building is based on buoyancy forces. However, external wind flow can have significant effects on buoyancy- driven natural ventilation. Airflow process across vertical vents induced by stack- driven effect with an opposing flow in one of the openings was presented. Equations governing air flow are utilized; models of fluid and thermo-dynamical problems have been described. Boussinesq assumption is invoked and analytic techniques are employed to obtain the possible solutions of model equation. Various parameters on air flow...
Buoyancy-driven natural ventilation in ventilation shafts is investigated with a small scale physica...
Airflow through openings in a cross ventilated building scale model was investigated in a wind tunne...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2001.Includes...
There has been considerable interest in the interaction between buoyancy and wind pressure gradients...
Analytical solutions are derived for calculating natural ventilation flow rates and air temperatures...
The effect of an opposing wind on the stratification and flow produced by a buoyant plume rising fro...
Many naturally ventilated building designs rely on buoyancy (or “stack effect”) and night cooling of...
The effect of an opposing wind on the stratification and flow produced by a buoyant plume rising fro...
Natural ventilation is of increasing interest in building industry because of recent focus on enviro...
Commercial wind towers have been the focus of intensive research in terms of their design and perfor...
Commercial wind towers have been the focus of intensive research in terms of their design and perfor...
Results of a CFD simulation of the wind-assisted stack ventilation of a single-storey enclosure with...
Theoretical solutions for thermal stratification and airflow rates are obtained for buoyancy-driven ...
Results of a CFD simulation of the wind-assisted stack ventilation of a single-storey enclosure with...
Results of a CFD simulation of the wind-assisted stack ventilation of a single-storey enclosure with...
Buoyancy-driven natural ventilation in ventilation shafts is investigated with a small scale physica...
Airflow through openings in a cross ventilated building scale model was investigated in a wind tunne...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2001.Includes...
There has been considerable interest in the interaction between buoyancy and wind pressure gradients...
Analytical solutions are derived for calculating natural ventilation flow rates and air temperatures...
The effect of an opposing wind on the stratification and flow produced by a buoyant plume rising fro...
Many naturally ventilated building designs rely on buoyancy (or “stack effect”) and night cooling of...
The effect of an opposing wind on the stratification and flow produced by a buoyant plume rising fro...
Natural ventilation is of increasing interest in building industry because of recent focus on enviro...
Commercial wind towers have been the focus of intensive research in terms of their design and perfor...
Commercial wind towers have been the focus of intensive research in terms of their design and perfor...
Results of a CFD simulation of the wind-assisted stack ventilation of a single-storey enclosure with...
Theoretical solutions for thermal stratification and airflow rates are obtained for buoyancy-driven ...
Results of a CFD simulation of the wind-assisted stack ventilation of a single-storey enclosure with...
Results of a CFD simulation of the wind-assisted stack ventilation of a single-storey enclosure with...
Buoyancy-driven natural ventilation in ventilation shafts is investigated with a small scale physica...
Airflow through openings in a cross ventilated building scale model was investigated in a wind tunne...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2001.Includes...